DE102012013350B4 - Electromagnet, electromagnetically actuated brake and brake motor - Google Patents

Abstract

Electromagnet, in particular brake coil, in particular for an electromagnetically actuated bare brake, wherein the electromagnet has a coil formed in a bobbin coil winding, wherein the bobbin is received in a magnetic body, wherein the magnetic body is constructed in two or more parts, wherein an inner pole of a first material is manufactured and wherein the outer pole is made of a second material, wherein the first material has a higher specific magnetic permeability than the second material, characterized in that the first material is a steel or a ferrite and / or that the second material is a ductile iron is.

Description

The invention relates to an electromagnet, an electromagnetically actuated brake and a brake motor.

It is well known that an electromagnet has a coil winding which is inserted in a magnetic body.

From the DE 19 59 460 A a high-frequency contactor is known in which ferrite and sheet metal are used as the core of the electromagnet.

From the DE 198 05 171 A1 For example, a solenoid core is known in which three materials are combined.

From the DE 20 2008 008 650 U1 is known a solenoid with a multi-part core, in which one of the parts is made of sintered metal.

The invention is therefore the object of developing an electromagnet with a simple production and for a compact as possible powerful brake.

According to the invention the object is achieved in the electromagnet according to the claim 1 or 2, in the electromagnetically actuated brake according to the in claim 14 and in the brake motor according to the features indicated in claim 15.

Important features of the invention in the electromagnet are that the electromagnet, in particular brake coil, in particular for an electromagnetically actuated brake,
has a coil winding accommodated in a coil carrier,
wherein the bobbin is received in a magnetic body,
wherein the magnetic body is constructed in two or more parts,
wherein an inner pole is made of a first material and wherein the outer pole is made of a second material,
wherein the first material has a higher specific magnetic permeability than the second material.

The advantage here is that the inner pole passes through a high magnetic field strength without going to saturation. The outer pole can be produced from another, for example less expensive, material than the inner pole. Thus, a high field strength can be provided in the inner pole, before the saturation of the material is achieved. Although the outer pole can be acted upon only with a lower field strength before saturation is reached because lower permeable material is used than for the inner pole; however, the outer pole is made of a less expensive material.

In an advantageous embodiment, the coil winding is a ring winding. The advantage here is that a simple production is possible.

In an advantageous embodiment, the first material is a steel or a ferrite and / or the second material is a nodular cast iron. The advantage here is that a cost-effective material is used for the outer pole and a higher permeable material is used for the inner pole. Thus, a compact powerful brake can be produced, in particular, a large winding in the magnetic body executable and only a small mass of the magnetic body can be used. The mass fraction and / or volume fraction of the coil winding in comparison to the corresponding portion of the magnetic body is therefore highly selectable.

In an advantageous embodiment, the inner pole is pressed into another part of the magnetic body, in particular the back of the magnetic body, and / or is non-positively connected to this part. The advantage here is that a simple production is achievable.

In an advantageous embodiment, the outer pole of the magnetic body with the back of the magnetic body in one piece, so in one piece, executed. The advantage here is that a very large axial depth of the receiving area for the brake coil can be generated.

In an advantageous embodiment of the inner pole is designed to be tapered in the region of the connection with the other part of the magnetic body, so that an undercut is formed, in which the coil carrier is limited with coil winding, in particular between undercut and back of the magnetic body. The advantage here is that a simple connection between coil carrier and magnetic body, in particular inner pole, can be reached.

In an advantageous embodiment, the coil support including coil winding is encapsulated by potting compound in the magnetic body. The advantage here is that an increased mechanical stability can be achieved.

In an advantageous embodiment, a connection part, to which a respective end of the coil winding wire is electrically connected and a supply line, in particular a stranded conductor, is inserted into a pocket-shaped receiving region formed on the coil carrier,
in particular, wherein the inner pole has a flattening in the peripheral angle region covered by the connecting part. The advantage here is that one protected inclusion of the connection part is provided, on which the coil winding wires are connected to supply lines.

In an advantageous embodiment of the inner pole is formed substantially cylindrical. The advantage here is that the toroidal coil is easily received.

In an advantageous embodiment of the outer pole is designed as a rotary body, in particular wherein a recess for guiding electrical lines on the outer circumference of the outer pole is formed or incorporated and / or on the motor facing axial end face of the outer pole holes, in particular circumferentially spaced drill holes, are formed or incorporated, in particular for receiving guide elements for guiding an armature disc of a brake and / or spacing elements which space the outer pole to the external pole connectable to the electric motor. The advantage here is that a simple production is possible.

In an advantageous embodiment, the coil carrier is an injection molded plastic part. The advantage here is that a simple production can be achieved, with an electrically insulating plastic is used.

In an advantageous embodiment, a circumferential cable guide channel is formed on the coil carrier. The advantage here is that a cable guide is integrated on the bobbin.

In an advantageous embodiment, the coil support including coil winding is encapsulated by potting compound in the magnetic body. The advantage here is that an increased mechanical stability can be achieved. The potting compound also causes improved heat dissipation.

Important features of the electromagnetically actuated brake are that it is designed with such an electromagnet. Thus, the brake is very compact executable and has a high performance.

Important features of the brake motor are that the brake motor comprises an electric motor with such an electromagnetically actuated brake. The advantage here is that a compact powerful brake on the engine can be integrated, so that the weight of the engine is very low.

Further advantages emerge from the subclaims. The invention is not limited to the combination of features of the claims. For the skilled person, further meaningful combination options of claims and / or individual claim features and / or features of the description and / or figures, in particular from the task and / or the task posing by comparison with the prior art arise.

The invention will now be explained in more detail with reference to figures: In the 1 an exploded view of a brake coil for an electromagnetically actuated brake is shown.

In the 2 a front view of the brake coil is shown.

In the 3 an associated longitudinal section is shown.

In the 4 an associated cross section is shown.

As shown in the figures, a magnetic body of a brake coil of an electromagnetically operable brake has an annular outer pole 1 of the magnetic body and a back 2 of the magnetic body, wherein outer pole 1 and back 2 are made in one piece.

As the material of the magnetic body, a ferromagnetic material is preferably used, in particular, for example, a ferromagnetic steel or a cast steel, in particular ductile iron.

The back 2 has a centrally arranged, in particular circular, recess. Thus, the back 2 designed like a hole disc.

The inner pole 6 is designed substantially cylindrical and non-positively, in particular by means of interference fit, connected to the magnetic body. In the manufacture of the brake, the inner pole 6 in the recess in the back 2 pressed.

The inner pole 6 is made of a material having a higher specific magnetic permeability than the outer pole 1 with back 2 , For example, as the material of the inner pole 6 Ferrite or other high permeability material. In this way, a high field strength in the inner pole 6 passable without saturation occurred.

The outer pole 1 has an axially extending recess 3 for cable management, in particular for guiding the stator lines of an electric motor connected to the brake. Thus, the stator winding leads of an electric motor to which the brake is mounted or in which Brake is installed, space-saving vorbeiführbar on the brake and from there then to a connection box feasible, in which supply lines for supplying the motor are connectable. In addition, the supply lines of the brake coil from the terminal box to the brake as brake coil winding connection lines 4 fed. In this case, for example, strand is as the respective brake coil winding connection line 4 usable. The coil winding 30 is designed as an annular coil winding and has a first and another brake coil winding connection line 4 on.

The brake coil winding leads 4 are each with a connection part 5 connected, in particular connected by welding. The respective connection part 5 is preferably designed as a stamped and bent part, in particular made of copper sheet.

To the respective connection part 5 Also, a respective end of the winding wire of the brake coil winding 30 electrically connected. The brake coil winding 30 is designed as a ring winding and in a coil carrier 8th added. The coil carrier 8th is made of plastic, especially as an injection molded part.

The coil carrier 8th is by means of an undercut 33 at the inner pole 6 kept, with the inner pole 6 for this purpose has a step, that is, a radial thickening, which is axially spaced from the connection region between the inner pole 6 and magnetic body, in particular back 2 ,

The coil carrier 8th has a corresponding radial thickening, which thus in the axial intermediate region between the thickening of the inner pole 6 and the connection area between inner pole 6 and magnetic body, in particular back 2 , Thus, an axial fixation on the undercut 33 reached. In a reception area 31 of the bobbin 8th as a recess in the thickening of the bobbin 8th is formed, is the connection part 5 added. The recording area 31 is as a pocket-shaped bobbin portion for forming the receiving portion for connection part 5 and / or cable guide executed. It is also on the coil carrier 8th formed a circumferential groove which serves for cable guide and opens into the pocket-shaped bobbin sections.

By means of the depression 3 is a cable guide, in particular for guiding the stator, in the axial direction over the axial area covered by the magnetic body allows.

The coil carrier 8th is by means of potting compound 40 potted in the reception area between outside pole 1 and inner pole 6 ,

At that circumferential angle range at which the connection part 5 in the radial direction radially inward on the coil carrier 8th is pushed in, protrudes the connection part 5 radially inward than the inner diameter of the bobbin B. In the corresponding circumferential angular range, the inner pole 6 a radial recess, so that the connecting part 5 with its radially inner end region rests on the inner pole 6 ,

The inner pole 6 is designed as a hollow cylindrical part, so that the brake rotor shaft can protrude axially through the magnet body and on the side facing away from the motor of the brake, an angle sensor is connectable.

The connection part 5 is also signposted as a contact hook.

The brake coil is supplied with direct current. When energized, an axially movably connected to the magnetic body, axially movable arranged, made of steel armature disc brake axially towards the magnet body moves against the spring force generated by the spring supported on the magnetic body spring force. When not energized, the armature disc is pushed away from the magnet body and thereby connected against a rotationally fixed to the brake rotor shaft,
Advantageously, the inner pole 6 and the outer pole 1 made of different materials. The inner pole 6 has higher flux densities than the outer pole 1 if the material of the inner pole 6 has a higher permissible maximum induction and / or steeper magnetization characteristic. Thus, less iron losses and / or magnetization losses occur. Preferably, the inner pole 6 made of a rod material on a rod turning machine.

Because outer pole 1 and back 2 the magnetic body have a pot-like shape, a simple production by casting and / or forging is possible.

By means of the undercut 33 is not just a fixation of the bobbin 8th between inner pole 6 and back 2 achievable but the Innenpolfläche is larger dimensioned than without training of the undercut 33 , Thus, the characteristic between magnetic force and air gap is less steep, wherein the air gap is the axial distance between the armature disc and the magnetic body.

Due to the press-in depth of the inner pole 6 in the back 2 of the magnetic body can be the time of incidence of the brake preset, in particular as a function of the braking torque and / or the spring elements.

LIST OF REFERENCE NUMBERS

1

Pole of the magnetic body

2

Back of the magnetic body

3

Deepening for cable routing, in particular for guiding the stator lines

4

Brake coil winding lead

5

Connecting part, in particular stamped and bent part

6

pole

7

flattening

8th

coil carrier

30

coil winding

31

Reception area for connection part 5

32

pocket-shaped bobbin portion for forming the receiving portion for connecting part 5 and / or cable management

33

undercut

40

potting compound

Claims (15)

Electromagnet, in particular brake coil, in particular for an electromagnetically actuated bare brake, wherein the electromagnet has a coil formed in a bobbin coil winding, wherein the bobbin is received in a magnetic body, wherein the magnetic body is constructed in two or more parts, wherein an inner pole of a first material is manufactured and wherein the outer pole is made of a second material, wherein the first material has a higher specific magnetic permeability than the second material, characterized in that the first material is a steel or a ferrite and / or that the second material is a ductile iron is. Electromagnet, in particular brake coil, in particular for an electromagnetically actuated brake, wherein the electromagnet has a coil formed in a bobbin coil winding, wherein the bobbin is received in a magnetic body, wherein the magnetic body is constructed in two or more parts, wherein an inner pole made of a first material is and wherein the outer pole is made of a second material, wherein the first material has a higher specific magnetic permeability than the second material, characterized in that the inner pole is pressed into another part of the magnetic body, so back of the magnetic body, and / or non-positively is connected to this part, wherein the outer pole of the magnetic body with the back of the magnetic body in one piece, that is integrally formed, wherein the inner pole is designed to be tapered in the region of the connection with the other part of the magnetic body, so that an undercut geb is formed, in which the bobbin with coil winding is limited between undercut and back of the magnetic body. Electromagnet according to claim 1, characterized in that the coil winding is a ring winding. Electromagnet according to claim 1, characterized in that the magnet is an upwardly open ring magnet. Electromagnet according to at least one of the preceding claims, characterized in that the inner pole is pressed into another part of the magnetic body, in particular the back of the magnetic body, and / or is non-positively connected to this part. Electromagnet according to at least one of the preceding claims, characterized in that the outer pole of the magnetic body with the back of the magnetic body in one piece, so in one piece, is executed. Electromagnet according to at least one of the preceding claims, characterized in that the inner pole is designed to be tapered in the region of the connection with the other part of the magnetic body, so that an undercut is formed, in which the coil carrier is limited with coil winding, in particular between undercut and back of magnetic body. Electromagnet according to at least one of the preceding claims, characterized in that the coil carrier is encased together with coil winding by means of potting compound in the magnetic body. Electromagnet according to at least one of the preceding claims, characterized in that a connection part, to which a respective end of the coil winding wire is electrically connected and a supply line, in particular a stranded wire, is inserted into a formed on the bobbin pocket-shaped receiving area, in particular wherein the inner pole of the connection part Covered circumferential angle range has a flattening. Electromagnet according to at least one of the preceding claims, characterized in that the inner pole is formed substantially cylindrical. Electromagnet according to at least one of the preceding claims, characterized in that the outer pole is formed as a rotational body, in particular wherein a recess for guiding electrical lines on the outer circumference of the outer pole is formed or incorporated and / or on the motor facing axial end face of the outer pole boreholes, in particular in the circumferential direction regularly spaced bores, are formed or incorporated, in particular for receiving guide elements for guiding an armature disc of a brake and / or spacing elements, which space the outer pole to the external pole connectable to the electric motor. Electromagnet according to at least one of the preceding claims, characterized in that the coil carrier is an injection molded plastic part. Electromagnet according to at least one of the preceding claims, characterized in that the coil carrier is formed in the circumferential direction a circumferential cable duct. Electromagnetically actuated brake with an electromagnet according to at least one of the preceding claims. Brake motor characterized in that the brake motor comprises an electric motor with an electromagnetically actuated brake according to the preceding claim.

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